Comparison of Energy Expenditure Measurement Techniques in Severely Burned Patients

Abstract

The degree of accuracy of existing formulas for calculating energy expenditure can be determined by comparing them to the measured energy expenditure via indirect calorimetry. As a result, one can modify traditional predicted recommendations for nutrition alimentation of the burn patient with real-time data. In this study, 21 sequential adult admissions with second- and third-degree total body surface area (TBSA) burn wounds (range 21%-81% TBSA) underwent serial assessments of energy expenditure by indirect calorimetry. On admission, maximum, and discharge, measured energy expenditure (MEE) was compared with the calculations for predicted energy expenditure by the Curreri (CEE) and modified Harris-Benedict (MBEE) equations. The mean energy expenditure calculated from the Curreri equation on admission (CEEA) overestimated the mean MEE on admission (MEEA) by 25% (P less than 0.001) and on discharge (MEED) by 36% (P less than 0.0005). The mean modified Harris-Benedict equation overestimated the mean MEEA by 32% (P less than 0.0005) and the mean MEED by 39% (P less than 0.0005). No significant difference was noted between the mean MEE at maximum (MEEM) and the mean CEEA or the mean MBEEA. This indicates excessive overfeeding of the burn patient from admission to discharge by both standard formulas. Actual measured data provide a better indicator of varying nutritional needs throughout the hospital course than the standard formulas, and their use would result in significant savings in the expenses of enteral/parenteral nutritional supplements.